The depression in freezing point of 0.01...

The depression in freezing point of `0.01 m` aqueous `CH_(3)CooH` solution is `0.02046^(@)`, `1 m` urea solution freezes at `-1.86^(@)C`. Assuming molality equal to molarity, `pH` of `CH_(3)COOH` solution is

3.2

4.2

Text Solution

Verified by Experts

The correct Answer is:

`DeltaT_(f)=K_(f) xx m xx i`
`(DeltaT(urea))/(DeltaT(CH_(3)COOH))=(m'(urea))/(m'(CH_(3)COOH)xx1)`
`i=1.1 (i=1 for urea)`
`=(1 + x)` for` CH_(3)COOH`
`x=0.1`
`:. [H^(o+)] = Cx =0.001`
`:. pH=3`

Topper's Solved these Questions

SOLUTIONS
CENGAGE CHEMISTRY|Exercise Exercise (Assertion-Reasoning)|18 Videos
SOLUTIONS
CENGAGE CHEMISTRY|Exercise Exercise (Interger)|8 Videos
SOLUTIONS
CENGAGE CHEMISTRY|Exercise Exercises (Multiple Correct)|25 Videos
SOLID STATE
CENGAGE CHEMISTRY|Exercise Ex 1.2 (Objective)|9 Videos
SURFACE CHEMISTRY
CENGAGE CHEMISTRY|Exercise Archives Subjective|2 Videos

Similar Questions

Explore conceptually related problems

Depression of freezing point of 0.01 molal aq. CH_(3)COOH solution is 0.02046^(@) . 1 molal urea solution freezes at -1.86^(@) C . Assuming molarity equal to molarity , pH of CH_(3)COOH solution is :

Depression in freezing point of 0.01 molal aqueous HCOOH solution is 0.02046^(@)C . 1 molal aqueous urea solution freezes at -1.86^@ C . Assuming molality equal to molarity , calculate the pH of HCOOH solution.

depression in freezing point of 0.01 molal aqueous CH_(3)COOH solution is 0.02046^(@)C . Assuming molality equal to molarity. pH of CH_(3)COOH solution is (K_(f)=1.86K Kg "mol"^(-1)) _______________________.

If the freezing point of 0.1 M HA(aq) solution is -0.2046^(@)C then pH of solution is ( If K_(f) water =1.86mol^(-1)kg^(-1))

The measured freezing point depression for a 0.1 m aqueous CH_(3)COOH solution is 0.19^(@)C . The dissociation aconstant (K_(b)) for the acid at this concentration will be (K_(f)=1.86" K kg mol"^(-1))

CENGAGE CHEMISTRY-SOLUTIONS-Exercises (Single Correct)

Total Vapour pressure of mixture of 1molA(p(A)^(0)=150 "torr")and 2mol...
Text Solution
|
The vapour pressure of pure benzene C(6)H(6) at 50^(@)C is 268 "torr"....
Text Solution
|
The osmotic pressure of blood is 7.40 atm at 27^(@) C.The number of mo...
Text Solution
|
PtCl(4).6H(2)O can exist as a hydrated complex. 1 m aqueous solution h...
Text Solution
|
Which of the following solutions (1 molal) will have the maximum freez...
Text Solution
|
The depression in freezing point of 0.01 m aqueous CH(3)CooH solution ...
Text Solution
|
pH of 0.1 M monobasic acid is found to be 2 . Hence its osmotic pressu...
Text Solution
|
The lowering of vapour pressure due to a solute in a 1 m aqueous solut...
Text Solution
|
The most likely of the following mixtures to be an ideal solution is
Text Solution
|
Mole fraction of component A in vapour phase is chi(1) and that of com...
Text Solution
|
Which has the maximum osmotic pressure at temperature T?
Text Solution
|
The relative decreases in the vapour pressure of an aqueous solution c...
Text Solution
|
Mixture of volatile components A and B has a total vapour pressure (in...
Text Solution
|
FeCl(3) on reaction with K(4)[Fe(CN)(6)] in aqueous solution gives blu...
Text Solution
|
12.2 g of benzoic acid (Mw=122) in 100 g benzene has depression in fre...
Text Solution
|
25 mL of an aqueous solution of KCl was found to requires 20 mL of 1M ...
Text Solution
|
Based on the given diagram, which of the following statements regardin...
Text Solution
|
Following questions are based on the following activites (A) with obse...
Text Solution
|
Following questions are based on the following activites (A) with obse...
Text Solution
|
Following questions are based on the following activites (A) with obse...
Text Solution
|